Weirong Zhang
Beijing University of Technology
64 Papers
14 Citations
Weirong Zhang is an academic researcher from Beijing University of Technology. The author has contributed to research in topics: Environmental science & Computer science. The author has an hindex of 11, co-authored 21 publications. Previous affiliations of Weirong Zhang include University of Tokyo & Tokyo Polytechnic University.
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Papers
Federated Incomplete Multi-View Unsupervised Feature Selection with Fractional Sparsity-Guided Whale Optimization and Tensor Alternating Learning
Yufan Yuan,Wangyu Wu,Chang-an Xu,Weirong Zhang,Chuan Jin +4 more
TL;DR: This paper proposes Fed-IMUFS, a federated learning method for multi-view unsupervised feature selection, integrating Sparsity-Guided Whale Optimization and Tensor Alternating Learning to achieve robust feature selection, missing-view completion, and data privacy in distributed settings.
Local reference solar visible spectrum for high daylighting quality
Ziyi Guo,Yanyun Zhang,Martine Knoop,Yuxuan Liu,Luo Tao,Gaofeng Deng,Weirong Zhang,Peng Xue +7 more
Study on the impacts of human walking on indoor particles dispersion using momentum theory method
TL;DR: In this paper, a new method of momentum theory was proposed to investigate human motion induced effects on indoor environments (i.e., momentum source implemented into Navier-Stokes equations to simulate human/objects moving).
Multi-vent module-based adaptive ventilation to reduce cross-contamination among indoor occupants
TL;DR: In this paper , a multi-vent module-based adaptive ventilation (MAV) is proposed, and its performance in contaminant diffusion control is evaluated in a two-desk office with MAV.
Piezoelectric atomization of liquids with dynamic viscosities up to 175 cP at room temperature
T.F. Xie,Yaohua Zeng,Zhenzhen Gui,Mingdong Ma,Yuxuan Huo,Weirong Zhang,Tian Tan,Tao Zou,Fan Zhang,Jianhui Zhang +9 more
TL;DR: In this paper , a flow tube internal cavitation atomizer (FTICA) was designed to atomize liquids with dynamic viscosities up to 175 cP at room temperature with a driving frequency of 507 kHz and a voltage of 85 V. The maximum atomization rate in the experiment is 56.35 mg/min, and the average atomized particle diameter is 10 µm.